A semiconductor device includes: a base material having a first terminal; a semiconductor chip having a first electrode pad electrically connected with the first terminal, a second electrode pad to which a power supply potential is to be supplied, and a third electrode pad to which a reference potential is to be supplied, and mounted on the base material via a first member; a chip capacitor having a first electrode and a second electrode, and mounted on the semiconductor chip via a second member; a first wire electrically connecting the first electrode pad with the first terminal; a second wire electrically connecting the second electrode pad with the first electrode without going through the base material; and a third wire electrically connecting the third electrode pad with the second electrode without going through the base material.

Provided is a stacked semiconductor package, which has various kinds of semiconductor chips with various sizes and is capable of miniaturization. The stacked semiconductor package includes a base substrate layer and a sub semiconductor package disposed on a top surface of the base substrate layer. The sub semiconductor package includes a plurality of sub semiconductor chips spaced apart from one another, and a sub mold layer filling spaces between the plurality of sub semiconductor chips to surround side surfaces of the plurality of sub semiconductor chips. The stacked semiconductor package includes at least one main semiconductor chip stacked on the sub semiconductor package, the at least one main semiconductor chip being electrically connected to the base substrate layer through first electrical connection members.

An electromechanical pressure sensor system, in particular microphone type, including an electromechanical transducer, signal processing device, a substrate for receiving at least one support of the electromechanical transducer and/or signal processing device, a protective cover arranged on the upper face of the substrate, the support of the electromechanical transducer and/or signal processing device being housed in at least one cavity located on the lower face of the substrate.

An electromechanical pressure sensor system, in particular microphone type, including an electromechanical transducer, signal processing device, a substrate for receiving at least one support of the electromechanical transducer and/or signal processing device, a protective cover arranged on the upper face of the substrate, the support of the electromechanical transducer and/or signal processing device being housed in at least one cavity located on the lower face of the substrate.

A semiconductor device includes first and second metal plates which are disposed to face each other, a semiconductor chip, a first insulator block, and a package. The first semiconductor chip has first and second electrodes exposed on first and second surface respectively. The first and second electrodes are connected to the first and second metal plates, respectively. The first insulator block is adjacent to the first semiconductor chip, and has a first surface in contact with the first metal plate, and a second surface. The second surface is on the opposite side of the first insulator block from the first surface and is in contact with the second metal plate. The package is in contact with a surface to which the first semiconductor chip of the first metal plate is connected and a surface to which the first semiconductor chip of the second metal plate is connected.

Integrated circuit packaging with cavities and methods of manufacturing the same are disclosed. An example apparatus includes a semiconductor die and a housing enclosing portions of the semiconductor die. The housing defines an opening that extends from a surface of the semiconductor die to an external environment, the housing formed of a first material. The example apparatus includes a second material disposed within the opening to block exposure of the semiconductor die to the external environment.

An integrated circuit includes a lead frame, a first die, and a second die. The first die is bonded to and electrically connected to the lead frame. The second die is electrically connected to and spaced apart from the first die.

Methods of manufacturing semiconductor packages. Implementations may include: providing a substrate with a first side, a second side, and a thickness; forming a plurality of pads on the first side of the substrate; and applying die attach material to the plurality of pads. The method may include bonding a wafer including a plurality of semiconductor die to the substrate at one or more die pads included in each die. The method may also include singulating the plurality of semiconductor die, overmolding the plurality of semiconductor die and the first side of the substrate with an overmold material, and removing the substrate to expose the plurality of pads and to form a plurality of semiconductor packages coupled together through the overmold material. The method also may include singulating the plurality of semiconductor packages to separate them.

Methods of manufacturing semiconductor packages. Implementations may include: providing a substrate with a first side, a second side, and a thickness; forming a plurality of pads on the first side of the substrate; and applying die attach material to the plurality of pads. The method may include bonding a wafer including a plurality of semiconductor die to the substrate at one or more die pads included in each die. The method may also include singulating the plurality of semiconductor die, overmolding the plurality of semiconductor die and the first side of the substrate with an overmold material, and removing the substrate to expose the plurality of pads and to form a plurality of semiconductor packages coupled together through the overmold material. The method also may include singulating the plurality of semiconductor packages to separate them.

Methods of manufacturing semiconductor packages. Implementations may include: providing a substrate with a first side, a second side, and a thickness; forming a plurality of pads on the first side of the substrate; and applying die attach material to the plurality of pads. The method may include bonding a wafer including a plurality of semiconductor die to the substrate at one or more die pads included in each die. The method may also include singulating the plurality of semiconductor die, overmolding the plurality of semiconductor die and the first side of the substrate with an overmold material, and removing the substrate to expose the plurality of pads and to form a plurality of semiconductor packages coupled together through the overmold material. The method also may include singulating the plurality of semiconductor packages to separate them.